I'm still not clear on your question, so I will answer this question and you can let me know if I'm close:
How can use the map/reduce paradigm to decompress a large gzip file?
Unless the gzip file has been specially prepared for this, it is not possible to map out the decompression job. Decompression must be done serially. Even though bzip2 compressed data is already in separately decompressible blocks, you can't find the blocks without having decompressed the whole thing already, serially, to point to them, which probably defeats the purpose.
You mention a "container" format for LZO, which if I understand you correctly, would work as well for gzip and bzip2.
For any of these formats, you can prepare a gzip stream for parallel decompression by compressing in pieces. E.g. a megabyte or a few megabytes for each piece, so as to not significantly degrade compression, and maintaining an index to those pieces constructed at the time of compression and transmitted or stored along with the compressed data file.
A concatenation of gzip streams is itself a valid gzip stream that decompresses to the concatenation of the decompressions of the individual streams. The same is true for the bzip2 format. For bzip2 the pieces should be a multiple of 900K so as to not have partial blocks, which are less efficient in compression ratio.
You can then construct such a gzip or bzip2 file and keep a list of file offsets of the start of each gzip or bzip2 stream within. Then you can map out those pieces, where the reduce step would simply concatenate the uncompressed results in the correct order.